JP4140672B2 - Disc player - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a disc player for reproducing a recording on a recording medium (mini disc) that carries information.
[0002]
[Prior art]
In recent years, there is a high demand for optical disc magnetic recording type mini disc cartridges (MD), which are recording media in which a recording recording disc is housed in a CD and a protective cartridge case, and a variety of disc players for reproducing such discs. The disc player is required to be thinner.
[0003]
As such a disc player, there is one having a loading roller 151 for loading the disc cartridge 140 as shown in FIG. 26, and a drive system 160 of the loading roller 151 is arranged on the left side from the rear of the drive unit 153. Some of them aim to reduce the thickness of disc players.
[0004]
That is, the loading roller 151 and the rotation transmission mechanism 152 that drives the loading roller 151 are arranged on the left side of the drive unit 153, and the loading motor 154 and the gear train 155 are arranged behind the drive unit 153. The output side of the loading motor 154 is linked to the loading roller 151 via the gear train 155 and the rotation transmission mechanism 152.
[0005]
[Problems to be solved by the invention]
However, in the above-described conventional disc player, since the loading roller 151 is disposed on the left side of the drive unit 153, a rotation transmission system (gear train 155 and gear train 155 and the loading roller 151) is provided. The rotation transmission mechanism 152) needs to be turned from the rear of the drive unit 153 to the left side, and there are problems that the number of parts is large, the structure is complicated, and the width B of the disc player is increased. Since the loading of the disk cartridge 150 is performed by rotating the loading roller 151, there is a problem that roller slip or the like occurs and the loading speed cannot be increased more than a certain level.
[0006]
In the conventional disc player, the floating lock of the drive unit 153 is performed by engaging rigid plates with each other. This rigid plate cannot be locked unless a certain amount of clearance is provided, but if this clearance is too large, a lot of rattling will occur and an unstable lock will be created. There was a problem that the number of parts increased.
[0007]
The present invention has been made paying attention to the above-mentioned problems, and the object is not only to reduce the number of parts but also to simplify the structure and to reduce the width dimension. Another object of the present invention is to provide a disc player that can increase the loading speed of the disc cartridge.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a disc player according to the first aspect of the present invention is a drive plate which is held on a base member via a floating means and has a recording / reproducing means, and the drive plate can be moved to the recording / reproducing means side. A drive unit having a cartridge holder held on the disk, a loading unit that pulls the disk cartridge into the cartridge holder of the drive unit and moves the disk cartridge to the recording / reproducing unit side, and a disk after recording / reproducing of the disk cartridge. Ejecting means for ejecting the cartridge, locking means for locking the drive unit to the base member in the process from recording / reproduction of the disc cartridge to ejection of the disc cartridge, and loading of the disc cartridge A disk player having a lock release means for releasing the lock by the lock means during the operation, the loading means, a catch member for gripping the disk cartridge inserted in the cartridge holder, and the disk cartridge by pulling the catch member A loading arm that is moved to the recording / reproducing means side, and a swing arm that is rotated by driving of a rotation driving system provided on the base member to rotate the loading arm and is separated from the loading arm side when loading of the disk cartridge is completed. It is composed.
[0009]
With this configuration, when the disk cartridge is inserted into the cartridge holder of the drive unit, the disk cartridge is gripped by the catch member, the rotation drive system is operated to rotate the swing arm, and the rotation of the swing arm rotates the loading arm. The disk cartridge is pulled in via the catch member, and this disk cartridge is loaded. However, in order to use the rotating swing arm to rotate the loading arm, the loading speed of the disk cartridge is increased. The loading motor and the rotation transmission system (gear train and rotation transmission mechanism) for driving the loading roller can be provided at the rear of the drive unit, because the loading roller can be used quickly. Luo it is not necessary to wrap on the left side, to the number of parts is small and the structure is simplified, it is possible to reduce the width dimension of the disc player.
[0010]
In order to achieve the above object, the disc player according to the invention of claim 2 is the disc player according to claim 1, wherein a gear is fixed to the swing arm coaxially with the rotation center of the swing arm, This gear is linked to the output gear of the loading motor via a gear train to form a rotary drive system of the swing arm, and the swing arm and the rotary drive system are arranged outside one side of the drive unit.
[0011]
With this configuration, not only the operational effects similar to the operational effects of the first aspect of the invention described above can be achieved, but also the swing arm is driven to rotate because the gear is fixed to the swing arm coaxially with the rotational center of the swing arm. There is no backlash of the swing arm in the system, and an operation error due to backlash due to the swing arm can be eliminated. Further, the width dimension of the disc player can be reduced by disposing the swing arm and the rotational drive system outside one side of the drive unit.
[0012]
In order to achieve the above object, a disc player according to a third aspect of the present invention is the disc player according to the second aspect, wherein the swing arm is provided with a notch for avoiding interference with gears of the gear train. Provided.
[0013]
With this configuration, not only can the operational effects similar to the operational effects of the first aspect of the invention described above be achieved, but the swing arm can be provided by providing the swing arm with a notch for avoiding interference with the gears of the gear train. Even after the bearing is rotatably supported by the bearing, if the swing arm is rotated and the notch is directed to the one bearing that supports one gear of the gear train, this one bearing One gear train can be supported without interfering with the swing arm, and the swing arm is rotated so that its notch is supported on the other support portion side for supporting the other gear in the gear train. The other gears can be supported on the other bearing parts without causing the swing arm to interfere with the swing arm, and the assembling workability can be improved.
[0014]
In order to achieve the above object, the disc player according to the invention of claim 4 is the disc player according to claim 1, wherein the lock means includes a plurality of peripheral lock means for locking the peripheral portion of the drive unit, It is composed of elastic locking means that presses the entire drive unit.
[0015]
With this configuration, not only the operational effects similar to those of the first aspect of the invention described above can be achieved, but also when the drive unit is locked to the base member, a plurality (four) of peripheral portions (four sides) of the drive unit are provided. It is possible to lock the drive unit with the peripheral lock means and to press the entire drive unit with the elastic lock means, and to lock the drive unit in a stable state without rattling.
[0016]
In order to achieve the above object, a disc player according to a fifth aspect of the present invention is the disc player according to the fourth aspect, wherein the peripheral locking means is moved with respect to the loading direction of the disc cartridge by the rotation of the swing arm. A mode plate side lock portion that is provided on a mode plate that moves in a right angle direction and that removably engages with a lock portion on the drive unit side when the mode plate moves, and one lock that moves in the loading direction by the movement of the mode plate One lock plate side lock portion provided on the plate and detachably engaged with one side lock portion on the drive unit side when the lock plate moves, and the other lock plate moved in the loading direction by the movement of the mode plate And this lock Provided on the other lock plate side lock portion that is detachably engaged with the other side lock portion on the drive unit side when the seat is moved, and on the front lock plate that moves in the direction perpendicular to the loading direction by the movement of the lock plate. And a pressing member that presses the drive unit when the front lock plate is moved.
[0017]
With this configuration, not only the operational effects similar to the operational effects of the first aspect of the invention described above can be obtained, but also when the drive unit is locked to the base member, the drive unit is pressed against the pressing member provided on the front lock plate, The mode plate side lock part is detachably engaged with the rear lock part, and one lock plate side lock part is detachably engaged with one side lock part of the drive unit, and the other side of the drive unit is engaged. The other lock plate side lock part can be detachably engaged with the lock part to lock the four sides of the drive unit, and the drive unit can be locked in a stable state without rattling.
[0018]
In order to achieve the above object, a disc player according to a sixth aspect of the invention is the disc player according to the fourth or fifth aspect, wherein the elastic lock means is rotated by rotation of the swing arm of the loading means. The moving sub-loading arm and the loading arm are attached to the drive unit so as to be rotatable at the same fulcrum, and the loading arm is provided with a rotation allowing means for allowing a predetermined rotation with respect to the sub-loading arm. The front side of the arm is linked to the intermediate portion of the loading arm via a spring member, and the sub-loading arm is rotated to a predetermined rotation amount by the spring force of the spring member to be interlocked with the loading arm.
[0019]
With this configuration, not only the operational effects similar to those of the first aspect of the invention described above can be achieved, but also when the disk cartridge is loaded, the loading arm rotates in conjunction with the subloading arm by the rotation of the swing arm of the loading means. The loading arm is rotated to the maximum rotation position and stopped. However, only the sub-loading arm is rotated by the rotation allowing means by the rotation of the swing arm, and the spring member is pulled. By fixing the sub-loading arm and the loading arm to the swing arm by pulling the spring member, the entire drive unit can be pressed, and the drive unit can be locked in a stable state without rattling.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0021]
1 is a plan view of the disc player according to the present invention, FIG. 2 is a front view of the disc player, FIG. 3 is an arrow view from the direction D in FIG. 1, and FIG. 4 is an arrow view from the direction E in FIG. 5 is an exploded perspective view of the base frame unit of the disc player, and FIG. 6 is an enlarged perspective view of the base frame structure of the disc player in an exploded state. In the drawings, the front side of the disc player is defined as the front side, and the rear side, the left side, and the right side are set as indicated by arrows based on the front side.
[0022]
The disc player A according to the present invention is held by a base frame 1 serving as a base member via a floating means, which will be described later, and has a recording / reproducing means 84, and the drive plate 81 can move to the recording / reproducing means 84 side. A drive unit 80 having a cartridge holder 83 held by the drive unit 80, and a loading unit that pulls the disc cartridge 140 into the cartridge holder 83 of the drive unit 80 and moves the disc cartridge 140 toward the recording / reproducing unit 84. A loading mechanism unit 85; an ejecting unit that discharges the disk cartridge 140 after recording / reproduction of the disk cartridge 140; And locking means to be described later to lock the drive unit 80 in the process leading to the discharge of the base frame 1, and a lock release means described later to release the lock by the lock means in loading the disc cartridge 140.
[0023]
As shown in FIGS. 5 to 6, the base frame 1 has a bottom surface portion 1A and a peripheral wall portion 1B surrounding the bottom surface portion 1A. The peripheral wall portion 1B includes front and rear side wall portions 1C and 1D. The left and right side wall portions 1E and 1F are configured with an opening 2A formed on the bottom surface portion 1A, and lock plate mounting portions 2L on the left and right sides of the opening portion 2A of the bottom surface portion 1A. 2R is formed, the front portion of the bottom surface portion 1A is the front lock plate mounting portion 3A, and the rear portion of the bottom surface portion 1A is the drive system mounting portion 3B. Further, the front side wall portion 1C is formed with an insertion port forming portion 4 and locking holes 5L, 5R and spring locking portions 6L, 6R located on the left and right sides of the insertion port forming portion 4.
[0024]
The left lock plate mounting portion 2L has slide pins 63L and 64L and slide hole portions 63-1L, and the right lock plate mounting portion 2R has slide pins 63R and 64R and slide hole portions 63-1R. The front lock plate mounting portion 3A is provided with slide hole portions 65A and 65B, a slide pin 66, and a support pin 66-1.
[0025]
Further, the rear side wall portion 1D is formed with spring locking portions 7L and 7R located on the left and right sides of the upper edge portion thereof. Further, damper mounting portions 8A and 9A are formed on the left side wall portion 1E at the front and rear sides thereof, and mounting seat portions 10A are formed on the front and rear sides of the upper edge portion of the left side wall portion 1E. Further, damper mounting portions 8B and 9B are formed on the right side wall portion 1F at the front and rear sides thereof, and mounting seat portions 10B are formed on the front and rear sides of the upper edge portion of the right side wall portion 1F.
[0026]
The drive system mounting portion 3 is mounted with a rotation drive system 11 shown in FIG. The rotational drive system 11 includes a loading motor 12 and a gear train 14 linked to an output gear 13 of the loading motor 12. The loading motor 12 is held on the rear side wall 1D via a holder 15. A gap (not shown) for inserting the mode plate 44 is formed between the lower surface portion of the loading motor 12 and the upper surface portion of the drive system mounting portion 3. is there.
[0027]
The gear train 14 includes first to seventh gear support pins (support portions) 16 to 22 that are implanted on the upper surface portion of the drive system mounting portion 3, and the first gear support pin 16 includes First and second gears 23 and 24 integrally formed on the same axis are rotatably supported, and third and fourth gears 25 and 26 integrally formed on the second gear support pin 17 on the same axis. The third gear support pin 18 is rotatably supported by fifth and sixth gears 27 and 28 which are integrally formed on the same axis.
[0028]
Further, seventh and eighth gears 29 and 30 formed coaxially on the fourth gear support pin 19 are rotatably supported, and are integrally formed coaxially with the fifth gear support pin 20. The ninth and tenth gears 31 and 32 are rotatably supported, and the eleventh and twelfth gears 33 and 34 integrally formed on the sixth gear bearing pin 21 are rotatably supported. It is. A swing arm 36 and a rack gear 35 fixed integrally to the swing arm 36 are rotatably supported on the seventh gear support pin 22.
[0029]
The output gear 13 of the loading motor 12 meshes with the first gear 23, the second gear 24 is in the third gear 25, the fourth gear 26 is in the fifth gear 27, and the sixth gear 28 is in the seventh gear 29. The eighth gear 30 is engaged with the ninth gear 31, the tenth gear 32 is engaged with the eleventh gear 33, and the twelfth gear 34 is engaged with the rack gear 35.
[0030]
The rack gear 35 has a shaft portion 38, and the rack gear 35 and the swing arm 36 are inserted into a caulking pin 37 through an inner hole 35 a of the rack gear 35, as shown in FIG. The swing arm 36 is integrated with the shaft portion 38 of the rack gear 35 by fitting a hole 36 a provided in the base portion 36 </ b> A of the swing arm 36 and caulking the pin 37. An arc-shaped cutout 39 is formed in the base portion 36 </ b> A of the swing arm 36, and a slide pin 128 is provided at the tip of the swing arm 36.
[0031]
As shown in FIG. 10, the rack gear 35 and the swing arm 36 can be assembled and integrated using the pin 40 and the washer 41, but in this case, the swing arm 36 is loose with respect to the rack gear 35. In some cases, an operation error may occur, and in order to solve such a problem, it is integrated by caulking as described above.
[0032]
When the rack gear 35 and the swing arm 36 are integrated, the tenth gear 32 and the twelfth gear 34 cannot be assembled. However, as described above, the arc-shaped cutout portion is formed in the base portion 36A of the swing arm 36. By forming 39, even after the rack gear 35 and the swing arm 36 are supported on the seventh gear support pin 22, the swing arm 36 is rotated so that the notch 39 is located on the fifth gear support pin 20 side. , The ninth and tenth gears 31 and 32 can be inserted into the fifth gear support pin 20, and then the swing arm 36 is rotated so that the notch 39 is connected to the sixth gear support pin 21. The eleventh and twelfth gears 33 and 34 can be inserted into the sixth gear support pin 21 by being directed to the side.
[0033]
The lock mechanism 43 includes a mode plate 44, left and right lock links 45L and 45R, left and right lock plates 46L and 46R, a front lock plate 47, and a connecting link 75.
[0034]
The mode plate 44 includes a lock claw portion (mode plate side lock portion) 50 having a lock groove portion 49, a rack mounting portion 51, elongated hole-shaped guide holes 52, 53, 54, and shaft pins 55, 56. Further, a rack plate 57 is fixed to the rack mounting portion 51. The mode plate 44 can be moved to the drive system mounting portion 3 in the left-right direction by inserting the guide holes 52, 53, 54 into the second, fourth, and fifth gear support pins 17, 19, 20. Is provided. The rack gear 35 is engaged with the rack plate 57.
[0035]
Further, a left lock block 58L is fixed to the left (one) lock plate 46L, and a left lock groove 59L opening forward is formed in the lock block 58L. The lock plate side lock portion is configured. The left lock plate 46L is provided with elongated hole-shaped guide holes 58-1L and 59-1L along the front-rear direction, and a protrusion 60L. The character-shaped sliding hole 61 is provided with slide pins 62-1L and 62L at the intermediate and rear portions, respectively.
[0036]
Further, a right lock block 58R is fixed to the right (the other) lock plate 46R, and a right lock groove portion 59R opening forward is formed in the lock block 58R, and these are the other. The lock plate side lock portion is configured. Further, the right lock plate 46R is provided with elongated hole-shaped guide holes 58-1R and 59-1R extending in the front-rear direction, and a protrusion 60R, and at the middle and rear of the right lock plate 46R. Are provided with slide pins 62-1R and 62R, respectively.
[0037]
The left lock plate 46L has the slide pins 63L and 64L inserted into the guide holes 58-1L and 59-1L, and the slide pin 62-1L is inserted into the slide hole 63-1L. The mounting portion 2L is disposed so as to be movable in the front-rear direction (the loading direction of the disc cartridge). The right lock plate 46R has slide pins 63R and 64R in the guide holes 58-1R and 59-1R, and slide pins. 62-1R is inserted into the slide hole portion 63-1R, and is arranged on the right lock plate mounting portion 2R so as to be movable in the front-rear direction.
[0038]
The left lock link 45L has a fulcrum hole 45A at its bent portion, a slide hole 45B at one end, and an insertion groove 67 at the other end. The left lock link 45L has a fulcrum hole 45A fitted to the seventh gear support pin 22 and rotatably attached to the drive system mounting part 3, and a mode plate 44 is mounted on the slide hole 45B. The slide pin 55 is slidably fitted, and the insertion groove 67 is slidably inserted into the slide pin 62L of the left lock plate 46L.
[0039]
The right lock link 45R has a fulcrum hole 68 at the bent portion, a slide hole 69 at one end, and an insertion groove 70 at the other end. The right lock link 45 </ b> R has a fulcrum hole 68 fitted to a slide pin 67 provided in the drive system mounting portion 3 and rotatably attached to the drive system mounting portion 3. The slide pin 56 of the mode plate 44 is slidably fitted, and the insertion groove portion 67 is slidably inserted into the slide pin 62R of the right lock plate 46R.
[0040]
Further, the front lock plate 47 carries two pressing pins 71, which are pressing members, at regular intervals in the left-right direction, and the front lock plate 47 has a slide pin 72A protruding to the back side thereof. 72B, a slide pin 73 projecting to the front side, and a long hole-like slide hole portion 74 along the left-right direction are provided. The front lock plate 47 has the slide pins 72A and 72B fitted in the slide hole portions 65A and 65B and the slide pin 66 in the slide hole portion 74 so as to be slidable. It is attached so that it can move in the left-right direction.
[0041]
The left lock plate 46L and the front lock plate 47 are connected by a connecting link 75. That is, the connecting link 75 has a square shape, and this connecting link 75 has a hole 77 at its bent portion, a slide pin 78 at one end, and a slide hole at the other end. Each part 79 is provided. The connecting link 75 has a hole 77 rotatably attached to the support pin 66-1 provided in the front lock plate attaching portion 3A, and is provided rotatably at the left end portion of the front lock plate attaching portion 3A. The slide pin 78 of the link 75 is slidably fitted in the slide hole 61 of the left lock plate 46L, and the slide hole 79 of the connecting link 75 slides on the slide pin 73 of the front lock plate 47. It is movably fitted.
[0042]
Further, dampers 130-1L and 130-2L are mounted on the damper mounting portions 8A and 9A, and dampers 130-1R and 130-2R are mounted on the damper mounting portions 8B and 9B, respectively. In addition, brackets 131L and 131R are attached to the left and right side wall portions 1E and 1F of the base frame 1 by screw members 132, respectively. These brackets 131L and 131R are for attaching the disc player A to other objects as necessary, and are not necessarily required.
[0043]
As shown in FIG. 7, the drive unit 80 includes a drive plate 81, left and right slide plates 82L and 82R, and a cartridge holder 83. The drive plate 81 has recording / reproducing means 84 mounted thereon. The cartridge holder 83 is loaded with a loading mechanism portion 85 as loading means.
[0044]
The drive plate 81 has left and right side wall portions 86L and 86R. Holding pins 87-1L and 87-2L are provided before and after the left side wall portion 86L, and holding pins 88 are provided before and after the right side wall portion 86R. -1R and 88-2R are projected outward. In addition, slits 89-1L and 89-2L are provided downward from the upper edge of the left side wall portion 86L, and slits 891L are provided downward from the upper edge portion of the right side wall portion 86R. -1R and 89-2R are formed respectively. A slide pin 91L is provided at the rear part of the left wall part 86L, and a slide pin 91R is provided at the rear part of the right wall part 86R.
[0045]
Further, left and right locked claw portions 92L and 92R which are one and the other side lock portions are located outwardly on the lower edge portions of the left and right side wall portions 86L and 86R of the drive plate 81 and are located outwardly. Further, a rear locked claw portion 93 that is a lock portion is provided at the rear edge portion of the drive plate 81. The rear-side locked claw portion 93 faces in the vertical direction (vertical direction), and an engagement groove portion 94 is formed at the tip portion.
[0046]
A recording / reproducing unit 84 is provided on the surface of the drive plate 81. The recording / reproducing unit 84 includes a tar table 95 and an optical pickup 96. The optical pickup 96 is a screw feed mechanism (see FIG. The disk cartridge 140 moves in the radial direction.
[0047]
Also, as shown in FIG. 7, the left slide plate 82L includes front and rear slide hole portions 97-1L and 97-2L, and front and rear slide hole portions 98-1L and 98-2L. In addition, a lever portion 99L projects from the rear portion of the lower edge portion of the left slide plate 82L. Further, as shown in FIG. 7, the right slide plate 82R includes front and rear slide hole portions 97-1R and 97-2R and front and rear slide hole portions 98-1R and 98-2R. In addition, a lever portion 99R protrudes from the rear portion of the lower edge portion of the right slide plate 82R.
[0048]
The left slide plate 82L is driven in a state in which the holding pin 87-1L is slidably inserted into the front slide hole 97-1L and the slide pin 91L is slidably inserted into the rear slide hole 97-2L. It is attached to the outside of the left side wall portion 86L of the plate 85 so as to be movable in the front-rear direction and the vertical direction. The left slide plate 82L is urged rearward by the left spring member 122L.
[0049]
The right slide plate 82R is driven in a state where the holding pin 87-1R is slidably inserted into the front slide hole 97-1R and the slide pin 91R is slidably inserted into the rear slide hole 97-2R. The plate 85 is attached to the outside of the right side wall portion 86R so as to be movable in the front-rear direction and the up-down direction. The right slide plate 82R is biased rearward by the right spring member 122R (see FIG. 19).
[0050]
Further, as shown in FIGS. 7 and 13, the cartridge holder 83 has a cartridge insertion opening forming portion 100 on the front surface thereof, and guides along the front-rear direction are provided on the left and right sides of the cartridge insertion opening forming portion 100. The portions 101L and 101R are formed, and the claw 102 for releasing the shutter of the cartridge 140 which is the mini disc MD is provided on the standing wall portion of the right guide portion 101R. Further, the lower edge portion of the standing wall portion of the right guide portion 101R is a slide guide 103. A hole-shaped slide guide 104 is formed on the surface of the cartridge holder 83 in the front-rear direction toward the right side.
[0051]
The cartridge holder 83 has left guide pins 103-1L and 103-2L projecting from the left and right of the standing wall portion of the left guide portion 101L. Further, the cartridge holder 83 is provided with a pin holder portion 104A located outside the right guide portion 101R, and the right guide pins 103-1R and 103-2R protrude from the front and rear of the pin holder portion 104A. It is.
[0052]
A loading mechanism 85 is provided on the inner surface side of the cartridge holder 83. As shown in FIG. 13, the loading mechanism 85 includes a loading arm 105, a sub-loading arm 106, a slider 107, a catch member 108, and a switch link 109.
[0053]
The base end portion of the loading arm 105 and the base end portion of the sub-loading arm 106 are rotatably attached to a support portion 110 provided at the left rear end portion of the cartridge holder 83 by a support pin 111. A stopper 112 is cut and raised at the base of the loading arm 105, a pin 113 is provided at the middle, and a slide hole 114 is formed at the tip. Further, a hole 115 and a spring locking portion 116 are provided at the base of the subloading arm. The sub-loading arm 106 has a stopper portion 112 inserted into its hole 115 with play so as to overlap the loading arm 105, and the sub-loading arm 106 is interposed between the spring locking portion 116 and the pin 113. It is urged to the left by the delivered spring member 117. The hole 115, the stopper portion 112, the spring locking portion 116, the pin 113, and the spring member 117 constitute a rotation permission means. Further, a slit-like engaging portion 118 is formed on the distal end side of the sub-loading arm 106.
[0054]
The slider 107 is slidably attached to the slide guide 104 of the cartridge holder 83. The slider 107 is provided with a slide pin 118A. The slider 107 inserts the slide pin 118A into the slide hole 114. Thus, it is linked to the front side of the loading arm 105. A catch member 108 is connected to the slider 107 by a connecting member 119, and the catch member 108 is slidably attached to the slide guide 103 of the loading arm 105.
[0055]
Further, the base end portion of the switch link 109 is rotatably connected to the pin 113 at the intermediate portion of the loading arm 105, and a guide pin 120 is provided at the front portion of the switch link 109. 120 is slidably inserted into the arcuate guide hole 121 of the cartridge holder 83.
[0056]
The cartridge holder 83 configured as described above is assembled to the drive plate 81. That is, the cartridge holder 83 has the left guide pin 103-1L, 103-2L inserted into the front and rear slits 89-1L, 89-2L of the left side wall portion 86L of the drive plate 81 and the left guide pin. 103-1L and 103-2L are slidably inserted into the front and rear slide holes 98-1L and 98-2L on the front and rear sides of the left slide plate 82L, and the right guide pins 103-1R, 103-2R is inserted into the front and rear slits 89-1R and 89-2R of the right side wall portion 86R of the drive plate 81, and the right guide pins 103-1R and 103-2R are inserted in front of the right slide plate 82R. The slide holes 98-1R and 98-2R for raising and lowering the rear side are slidably inserted and assembled to the drive plate 81. Et drive unit 80 are constituted by.
[0057]
The drive unit 80 is assembled to the base frame 1 through floating means. That is, as shown in FIGS. 11 (1) and 11 (2), the left holding pins 87-1L and 87-2L of the drive plate 81 of the drive unit 80 are the left and right dampers 130-1L and 130- 2L, and the right holding pins 87-1R and 87-2R of the drive plate 81 of the drive unit 80 are held by the right and left dampers 130-1R and 130-2R of the base frame 1, Spring locking portions 123-1L, 123-2L, 123-1R, 123-2R provided on the left and right sides of the drive plate 81, and spring locking portions 6L provided on the left and right sides of the base frame 1, 7L, 6R, and 7R are suspended by a spring member 125 for suspension, and the drive unit 80 is assembled in a state of floating with respect to the base frame 1. And Aru.
[0058]
In this case, a cartridge insertion opening 133 is formed by the cartridge insertion opening forming portion 100 on the front surface of the cartridge holder 83 and the insertion opening forming portion 4 of the base frame 1.
[0059]
And the spring member 127 is spanned between the spring latching | locking part 126-1L, 126-1R provided in the front part of the left and right side part of the base frame 1, and the left and right lock blocks 58L, 58R. As shown in FIG. 13, the slide pin 128 of the swing arm 36 is slidably inserted into the slit-like engagement portion 118 on the distal end side of the subloading arm 106. The lever portions 99L and 99R of the left and right slide plates 82L and 82R are in contact with the front edge portions of the protrusions 60L and 60R of the left and right lock plates 46L and 46R. Further, the front end (rear end) of the switch link 109 is in sliding contact with the start detection switch 129. In addition, a cover member 139 is attached to the upper portion of the base frame 1 with a screw member 139a using attachment seats 10A and 10B.
[0060]
The lock means is composed of four peripheral lock means for locking the peripheral portion of the drive unit 80 and elastic lock means for pressing the entire drive unit 80.
[0061]
The peripheral locking means is provided on the mode plate 44 that moves in a direction perpendicular to the loading direction of the disk cartridge 140 by the rotation of the swing arm 36, and the rear side locked member provided on the drive unit 80 side when the mode plate 44 moves. The lock claw portion 50 that is a mode plate side lock portion that is detachably engaged with the claw portion 93 and the left lock plate 46L that moves in the loading direction by the movement of the mode plate 44 and the movement of the lock plate 46L Sometimes the lock plate 58L, which is one lock plate side lock portion that is detachably engaged with the left-side locked claw portion 92L, which is one side lock portion provided on the drive unit 80 side, is loaded by the movement of the mode plate 44. Right rock play moving in the direction 46R and a lock that is the other lock plate side lock portion that is detachably engaged with the right locked claw portion 92R that is the other side lock portion provided on the drive unit 80 side when the lock plate 46R is moved. A block 58R, and a lock pin 71 provided on the front lock plate 47 that moves in the left-right direction (perpendicular to the loading direction) by the movement of the lock plate 46L and that holds the rear portion of the drive unit 80 when the front lock plate 47 moves. It consists of
[0062]
In addition, the elastic locking means is attached to the cartridge holder 83 side so that the sub-loading arm 106 and the loading arm 105 which are rotated by the rotation of the swing arm 36 are rotatable at the same fulcrum, and the sub-loading arm 106 is attached to the loading arm 105. Rotation permitting means for allowing a predetermined rotation is provided, and the front side of the sub-loading arm 106 is linked to the intermediate portion of the loading arm 105 via the spring member 117, and the spring force of the spring member 117 is used. The sub-loading arm 106 is rotated by a predetermined rotation amount and is interlocked with the loading arm 105.
[0063]
The ejecting operation of the disk cartridge 140 is performed in the reverse operation of the loading operation, and the ejecting unit is also used as the loading mechanism unit 85 as the loading unit. The unlocking by the unlocking means is performed by the reverse operation of the locking operation.
[0064]
Next, the operation of the disc player configured as described above will be described.
[0065]
(Loading operation) (Unlock operation)
As shown in FIG. 13, the disc cartridge 140 containing the mini disc MD is inserted into the cartridge insertion port 133. At this time, the claw 102 for releasing the shutter is engaged with the shutter 142 of the disc cartridge 140, and the disc cartridge 140 is gripped by the catch member 108.
[0066]
Further, by pushing the disc cartridge 140, the end portion 140a of the disc cartridge 140 is positioned at the loading start position a as shown in FIG. In this case, the catch member 108 is pushed in, the loading arm 105 rotates in the counterclockwise direction, the switch link 109 rotates in the clockwise direction, and the tip of the switch link 109 turns the start detection switch 129. Turn on.
[0067]
When the start detection switch 129 is turned on, the loading motor 12 of the rotational drive system 11 is rotationally driven as shown in FIGS. 12 and 14, and the gear train 14 linked to the output gear 13 of the loading motor 12 is used. The swing arm 36 rotates in the clockwise direction.
[0068]
As shown in FIG. 15, by the rotation of the swing arm 36, the slide pin 128 of the swing arm 36 slides in the engaging portion 118, and the sub-loading arm 106 rotates counterclockwise. Rotates counterclockwise, the catch member 108 is pushed in, and the disc cartridge 140 is pulled in. In this case, the shutter release claw 102 opens the shutter 142 of the disk cartridge 140.
[0069]
Thus, when the disc cartridge 140 is pulled into a predetermined position (loading end position), the slide pin 128 of the swing arm 36 is disengaged from the engaging portion 118 of the sub-loading arm 106 as shown in FIG. The rotary drive system 11 is disconnected.
[0070]
When the swing arm 36 rotates in the clockwise direction, the mode plate 44 moves to the left via the rack member 57 that meshes with the rack gear 35 integrated with the swing arm 36 as shown in FIG.
[0071]
Until the drawing of the disk cartridge 140 shown in FIG. 16 is completed, the slide pins 55 and 56 of the mode plate 44 only move the slide holes 45B and 69 of the left and right lock links 45L and 45R, and the drive plate 81 is unlocked. First, after the disk cartridge 140 is completely retracted, the slide pins 55 and 56 of the mode plate 44 rotate the left and right lock links 45L and 45R rearward to move the left and right lock plates 46L and 46R in the unlocking direction (rearward). (See FIGS. 17 and 18).
[0072]
As the left and right lock plates 46L and 46R move in the unlocking direction (rear), the left and right slide plates 82L and 82R are pulled by the force of the spring members 122L and 122R to move rearward, and the left and right slide plates 82L, The guide pins 103-1L, 103-2L, 103-1R, 103-2R are guided by the 82R lifting slide holes 98-1L, 98-2L, 98-1R, 98-2R, and the cartridge holder 83 is lowered. The mounting of the disk cartridge 140 is completed. Thereafter, the left and right lock plates 46L and 46R move in the unlocking direction (rearward), the drive plate 81 is unlocked, and loading is completed (see FIGS. 12 and 19).
[0073]
Next, the flow from the floating state to the locked state of the drive unit 80 will be described.
[0074]
(Lock operation) (Eject operation)
As the swing arm 36 rotates counterclockwise, the mode plate 44 moves to the right via the rack member 57 that meshes with the rack gear 35 integrated with the swing arm 36, and the left and right lock links 45L, 45R. Rotate. The left lock plate 46L is moved forward by the rotation of the left lock link 45L, and the right lock plate 46R is moved forward by the rotation of the right lock link 45R. Further, the front lock plate 47 moves to the right through the connecting link 75 by the forward movement of the left lock plate 46L, and the two lock pins 71 carried by the front lock plate 47 are moved. The front end of the drive plate 81 is pressed (see FIGS. 20 and 21).
[0075]
Further rotation of the swing arm 36 in the counterclockwise direction causes the left and right lock plates 46L and 46R to move forward, and the left and right locked claws 91L and 91R of the drive plate 81 are carried by the lock plates 46L and 46R. The drive plate 81 is held by the left and right lock plates 46L and 46R by being completely inserted into the lock grooves 59L and 59R of the lock blocks 58L and 58R. At the same time, the left and right slide plates 82L and 82R are pushed by the lever portions 99L and 99R against the projections 60L and 60R of the left and right lock plates 46L and 46R to resist the spring force of the spring members 122L and 122R. The guide pins 103-1L, 103-2L, 103-1R, 103-2R are moved to the slide holes 98-1L, 98-2L, 98-1R, 98-2R for raising and lowering the left and right slide plates 82L, 82R. Is guided to raise the cartridge holder 83. At this time, the front end portions (front end portions) of the left and right slide plates 82L and 82R are removably engaged with the left and right engagement holes 5L and 5R of the front side wall portion 1C of the base frame 1. Here, the pivoting operation of the lock links 45L and 45R is completed, and the subsequent operations are such that the slide pins 55 and 56 of the mode plate 44 do not move and rotate the slide holes 45B and 69 of the lock links 45L and 45R ( (See FIG. 23).
[0076]
Next, as the swing arm 36 rotates counterclockwise, the slide pin 128 of the swing arm 36 enters the engaging portion 118 of the sub-loading arm 106, rotates the loading arm 105, and ejects the disk cartridge 140. . At this time, the engagement groove portion 49 of the lock claw portion 50 of the mode plate 44 and the engagement groove portion 94 of the rear-side lock claw portion 93 of the drive plate 81 are engaged with each other to lock the drive plate 81 (see FIG. 23).
[0077]
Next, as the swing arm 36 rotates counterclockwise, the loading arm 105 rotates and the slider 107 and the catch member 108 move to the cartridge discharge end position (see FIG. 24).
[0078]
Further, since the swing arm 36 continues to rotate in the counterclockwise direction and the loading arm 105 has moved to the maximum movable position, only the sub-loading arm 106 is rotated and the spring member 117 is extended while being stopped. Then, the mode plate 44 detects the OFF operation position in the switch 129, the rotation of the swing arm 36 is stopped, and the lock operation of the drive plate 81 is completed (see FIG. 25).
[0079]
In this case, by fixing the sub loading arm 106 and the loading arm 105 to the swing arm 36 by pulling the spring member 117, the entire drive unit 80 can be pressed, and the drive unit 80 is locked without rattling. be able to.
[0080]
【The invention's effect】
As described above, according to the disc player of the first aspect of the present invention, when the disc cartridge is inserted into the cartridge holder of the drive unit, the disc cartridge is gripped by the catch member, and the rotational arm is operated to operate the swing arm. The loading arm is rotated by the rotation of the swing arm and the disk cartridge is pulled in via the catch member, and the loading of the disk cartridge is performed. Since the rotating swing arm is used, the loading speed of the disk cartridge can be increased, and since no loading roller is used, a loading motor and a rotation transmission system for driving the loading roller ( It is not necessary to wrap the left side Ya column and the rotation transmission mechanism) from the rear of the drive unit, to the number of parts is small and the structure is simplified, it is possible to reduce the width dimension of the disc player.
[0081]
In addition, according to the disc player of the invention of claim 2, not only can the same effect as the effect of the invention of claim 1 described above be achieved, but the swing arm is coaxial with the rotation center of the swing arm. Since the gear is fixed to the swing arm, there is no backlash of the swing arm in the rotational drive system of the swing arm, and an operation error due to backlash caused by the swing arm can be eliminated.
[0082]
Further, according to the disc player of the invention of claim 3, not only can the same effect as the effect of the invention of claim 1 described above be obtained, but also to avoid interference with the gear of the gear train on the swing arm. Even after the swing arm is rotatably supported by the support portion, the swing arm is rotated so that the notch portion is supported by one of the gear trains. If it is directed to the part side, one gear of the gear train can be supported on this one support portion without interfering with the swing arm, and the swing arm is rotated so that the notch portion of the gear train is If it is directed to the other bearing part side that supports other gears, other gears of the gear train can be supported on this other bearing part without interfering with the swing arm, thereby improving the assembling workability. it can.
[0083]
Further, according to the disc player of the invention of claim 4, not only the operation and effect similar to the effect of the invention of claim 1 described above can be obtained, but also when the drive unit is locked to the base member, the peripheral portion of the drive unit The (four sides) can be locked by a plurality of (four) peripheral locking means, and the entire drive unit can be pressed by the elastic locking means, and the drive unit can be locked without rattling.
[0084]
Further, according to the disc player of the invention of claim 5, not only can the same effect as the effect of the invention of claim 1 described above be obtained, but also when the drive unit is locked to the base member, the front portion of the drive unit Press the presser member provided on the front lock plate, engage the mode plate side lock part with the lock part on the rear side of the drive unit so that it can be engaged and disengaged, and connect one lock plate side lock part to one side lock part of the drive unit. The other lock plate side lock part can be engaged with the other side lock part of the drive unit so that the other lock plate side can be engaged and disengaged, and the four sides of the drive unit can be locked respectively. This can be done without rattling.
[0085]
According to the disc player of the sixth aspect of the invention, not only can the same effect as that of the first aspect of the invention described above be obtained, but also when the swing arm of the loading means is rotated during loading of the disc cartridge. The loading arm rotates in conjunction with the sub-loading arm, and this loading arm rotates to the maximum rotation position and stops. However, only the sub-loading arm is rotated by the rotation allowing means by further rotation of the swing arm. Then, the spring member is pulled. By fixing the sub-loading arm and the loading arm to the swing arm by pulling the spring member, the entire drive unit can be pressed, and the drive unit can be locked without rattling.
[Brief description of the drawings]
FIG. 1 is a plan view of a disc player according to the present invention.
FIG. 2 is a front view of the disc player.
FIG. 3 is a view taken from the direction of D in FIG. 1;
4 is an arrow view from the direction E in FIG. 1;
FIG. 5 is an exploded perspective view of a base frame unit of the disc player.
FIG. 6 is an enlarged perspective view of the base frame structure of the disc player in an exploded state.
FIG. 7 is an exploded perspective view of the drive unit of the disc player.
FIG. 8 is a plan view of a rotational drive system of a swing arm.
FIG. 9 is a perspective view of a swing arm.
FIG. 10 (1) is a plan view of another swing arm.
(2) is a sectional view of the swing arm.
FIG. 11 (1) is a plan view of the disc player according to the present invention with a cover member removed.
(2) is explanatory drawing seen from the side of F section of (1).
FIG. 12 is an explanatory diagram of a loading completion state in the disc player according to the present invention.
FIG. 13 is an explanatory diagram at the start of loading in the disc player.
FIG. 14 is an explanatory diagram in the middle of loading in the disc player.
FIG. 15 is an explanatory diagram in the middle of loading in the disc player.
FIG. 16 is an explanatory diagram showing a state in which the drive unit is disconnected from the drive system in the disc player.
FIG. 17 is an explanatory diagram of a drive unit locking operation in the disc player.
FIG. 18 is an explanatory diagram of a drive unit locking operation in the disc player.
FIGS. 19A and 19B are operation explanatory views of a slide plate in the disc player. FIGS.
FIG. 20 is an explanatory diagram of a locking operation of the front portion of the drive unit in the disc player.
FIG. 21 is an explanatory diagram of a locking operation of the front portion of the drive unit in the disc player.
FIG. 22 is an explanatory diagram of the locking operation of both side portions of the drive unit in the disc player.
FIG. 23 is an explanatory diagram of the locking operation of the rear part of the drive unit in the disc player.
FIG. 24 is an explanatory diagram of a drive unit locking operation from the completion of disc cartridge ejection in the disc player.
FIG. 25 is an explanatory diagram of a drive unit locking operation from the completion of disc cartridge ejection in the disc player.
FIG. 26 is a plan view of a conventional disc player with a cover member removed.
[Explanation of symbols]
1 Base frame (base member)
2A opening
3A Lock plate attachment
3B Drive system mounting part
4 Insertion port forming part
5L Locking hole
5R Locking hole
6L Spring locking part
6R Spring locking part
7L Spring locking part
7R Spring locking part
8A damper mounting part
8B Damper mounting part
9A damper mounting part
9B Damper mounting part
10A Mounting seat
10B Mounting seat
11 Rotation drive system
12 Loading motor
13 Output gear
14 Gear train
15 holder
16-22 First to seventh gear bearing pins (bearing part)
23-34 1st to 12th gear
35 Rack gear
36 Swing arm
37 Caulking pin
38 Shaft
39 Notch
43 Locking mechanism (locking means) (peripheral locking means) (elastic locking means)
44 mode plate
45L left lock link
45R Lock link on the right
46L Left lock plate (one lock plate)
46R Right lock plate (the other lock plate)
47 Front lock plate
50 Lock claw (mode plate lock)
57 rack plate
58L Lock block (One lock plate side lock)
58R Right lock block (the other lock plate side lock)
60L Left protrusion
60R Right projection
71 Stop pin (presser member)
75 Link
80 drive unit
81 Drive plate
82L Left slide plate
82R Right slide plate
83 Cartridge holder
84 Recording / reproducing means
85 Loading mechanism (loading means)
92L Left locked claw (one side lock)
92R Right side locked claw part (the other side lock part)
93 Rear side claw part (lock part)
95 turntable
96 optical pickup
100 Cartridge insertion port forming part
101L guide section
101R guide section
102 nails
105 Loading arm
106 Subloading arm
107 slider
108 Catch member
109 Switch link
112 Stopper
113 pin
115 hole
117 Spring member
118 engaging part
122L Spring member
122R Spring member
128 slide pins
133 Cartridge insertion slot
139 Cover member
140 disc cartridge

Claims (6)

A drive unit having a drive plate held on a base member via a floating means and having a recording / reproducing means, and a cartridge holder movably held on the drive plate toward the recording / reproducing means;
Loading means for pulling the disk cartridge into the cartridge holder of the drive unit and moving the disk cartridge to the recording / reproducing means side;
Ejecting means for ejecting the disk cartridge after recording and reproducing the disk cartridge;
Locking means for locking the drive unit to the base member in the process from recording / reproduction of the disk cartridge to ejection of the disk cartridge;
A disc player comprising: lock releasing means for releasing the lock by the lock means during loading of the disc cartridge;
The loading means is provided on the base member, a catch member for gripping the disc cartridge inserted in the cartridge holder, a loading arm that pulls the catch member and moves the disc cartridge to the recording / reproducing means side, and A disc player comprising: a swing arm which is rotated by driving of a rotary drive system to rotate the loading arm and is separated from the loading arm side at the end of loading of the disc cartridge. A gear is fixed to the swing arm coaxially with the rotation center of the swing arm, and this gear is linked to the output gear of the loading motor via a gear train to form a rotation drive system of the swing arm. The disc player according to claim 1, wherein the rotary drive system is arranged outside one side of the drive unit. The disc player according to claim 2, wherein the swing arm is provided with a notch for avoiding interference with the gear of the gear train. 2. The disc player according to claim 1, wherein the locking means comprises a plurality of peripheral locking means for locking the peripheral portion of the drive unit, and elastic locking means for pressing the entire drive unit. A mode plate in which the peripheral locking means is provided on a mode plate that moves in a direction perpendicular to the loading direction of the disk cartridge by the rotation of the swing arm, and detachably engages with the lock portion on the drive unit side when the mode plate moves. One of the side lock portions and one of the lock plates that move in the loading direction by the movement of the mode plate and engages and disengages with one side lock portion on the drive unit side when the lock plate moves. Provided on the lock plate side lock portion and the other lock plate that moves in the loading direction by the movement of the mode plate, and detachably engages with the other side lock portion on the drive unit side when the lock plate moves. The other lock plate 5. A lock portion and a pressing member provided on a front lock plate that moves in a direction perpendicular to the loading direction by movement of the lock plate, and that presses one side of the drive unit when the front lock plate moves. Disc player as described in. The elastic locking means is attached to the drive unit so as to be able to rotate at the same fulcrum with respect to the sub-loading arm that rotates by the rotation of the swing arm of the loading means, and the loading arm is predetermined with respect to the sub-loading arm. A rotation permitting means for allowing the rotation of the subloading arm is provided, and a front side of the subloading arm is linked to an intermediate portion of the loading arm via a spring member, and the subloading arm is moved by the spring force of the spring member. 6. The disc player according to claim 4, wherein the disc player is configured to be rotated to a predetermined rotation amount and interlocked with the loading arm.

Images